Stage device

1. A stage device having a first table movable in one horizontal direction and in a direction perpendicular to the one horizontal direction, and a second table supported by a support portion on the first table so as to enable rotation around a vertical axis and guided so as to enable movement in a vertical direction by a guide portion, comprising: a pair of detectors that are arranged apart from each other in the one horizontal direction on the second table and detect a position or a velocity in a vertical direction of the second table; a pair of motors that are arranged apart from each other in the one horizontal direction on the second table and drive the second table in the vertical direction of the second table; and a controller that controls the drives of the pair of motors based on detected values which are detected by each of the pair of detectors, wherein the second table is supported at a central portion thereof by the support portion, and the guide portion slidably couples with the second table by compressed air, and wherein the controller controls the pair of motors so as to be independent from each other, translationally moves the second table in the vertical direction based on an added value of the detected values detected by each of the pair of detectors, and controls an angular velocity in a pitching direction of the second table based on a subtracted value of the detected values detected by each of the pair of detectors, such that the angular velocity becomes zero to dampen pitching vibration, and further calculates a vertical-direction thrust command based on a difference between the added value of the detected values detected by each of the pair of detectors and a command value of the vertical direction position, and calculates a pitching-direction thrust command based on a difference between the subtracted value of the detected values detected by each of the pair of detectors and a command value of the angular velocity of the pitching direction, outputs a sum of the vertical-direction thrust command value and the pitching-direction thrust command value to one of the pair of motors, and outputs a difference between the vertical-direction thrust command value and the pitching-direction thrust command value to one of the pair of motors.

2. The stage device according to claim 1 , wherein the pair of detectors and the pair of motors are placed in symmetric positions respectively relative to the one horizontal direction around a support point by the support portion in the second table.

3. The stage device according to claim 1 , wherein the second table is movable in the vertical direction and the controller controls a position of the second table in the vertical direction.

4. The stage device according to claim 2 , wherein the second table is movable in the vertical direction and the controller controls a position of the second table in the vertical direction.

5. A stage device having a first table movable in one horizontal direction and in a direction perpendicular to the one horizontal direction and a second table supported by a support portion on the first table so as to enable rotation around a vertical axis and guided so as to enable movement in a vertical direction by a guide portion, comprising: a plurality of detectors that are arranged apart from each other in the one horizontal direction on the second table and detect a position or a velocity in a vertical direction of the second table; a plurality of motors that are arranged apart from each other in the one horizontal direction on the second table and drive the second table in the vertical direction of the second table; and a controller that controls the drives of the plurality of motors based on detected values which are detected by each of the plurality of detectors, wherein the second table is supported at a central portion thereof by the support portion, and the guide portion slidably couples with the second table by compressed air, and wherein the controller controls the plurality of motors so as to be independent from each other, translationally moves the second table in the vertical direction based on an added value of the detected values detected by each of the plurality of detectors, and controls an angular velocity in a pitching direction of the second table based on a subtracted value of the detected values detected by each of the plurality of detectors, such that the angular velocity becomes zero to dampen pitching vibration, and further calculates a vertical-direction thrust command based on a difference between the added value of the detected values detected by each of the plurality of detectors and a command value of the vertical direction position, and calculates a pitching-direction thrust command based on a difference between the subtracted value of the detected values detected by each of the plurality of detectors and a command value of the angular velocity of the pitching direction, outputs a sum of the vertical-direction thrust command value and the pitching-direction thrust command value to one of the plurality of motors, and outputs a difference between the vertical-direction thrust command value and the pitching-direction thrust command value to one of the plurality of motors.